DE892381C - Jewelery made from gold-colored alloys - Google Patents

Description

Jewelery made from gold-colored alloys The invention relates to on pieces of jewelry that are wholly or partly made of gold-colored alloys with 33 to 6o% gold, 10 to 55'10, copper and 0.5 to 25'10 zinc and possibly contain additional components such as silver or metals from the platinum group can.

Pieces of jewelry that consist entirely or in part of such alloys, sometimes show the disadvantage that they are subject to sudden destruction. In some cases, this destruction is caused by external influences, e.g. Impact of corrosive agents, e.g. B. caused by sweat. You are likely to occur due to stresses based on stress corrosion.

In-depth investigations and tests have shown that you can such Destruction can be prevented if you make the jewelry from alloys of the specified Art produces the base metals in amounts of 0.1 to 51 / o, preferably 0.3 to 31 / o, which have the property of being in the mixed crystals containing noble metals not or not completely. As such protective metals come iron, Cobalt and Vanadium in question.

The effect of the protective metals is likely to be attributed to it be that they are in the form of the finest particles (crystals) between the precious metals Mixed crystals are stored and thereby enabled the harmful tensions record or fix.

The jewelry according to the invention can consist of alloys, those except 33 to 60% gold, 10 to 55% copper and 0.5 to 25% & zinc as o, i up to 50% of one or more protective metals silver in amounts between i and 30% and to increase their nobility platinum, palladium and / or rhodium in amounts of i up to i5% included. In addition, the alloys can contain iridium as Grain-refining metal in amounts not exceeding i% of the total alloy exhibit.

For the production of low gold alloys you will z. B. assume 33 or 35 parts of gold, a higher percentage of z. B. Introduce copper and: dimension the additional metals so that. that a total of 100 parts are achieved. A well-suited low-gold alloy has e.g. B. the following composition: 33.3 parts of gold, 39.0 - copper, i8,5 - zinc, 8.2 - silver, i, o - iron. For the production of gold-rich alloys one is of z. B. 55 to 60 parts of gold run out and these add correspondingly small amounts of copper, etc. The quantities of white metals, such as silver or palladium, are to be measured in such a way that the alloys are still gold-colored. The metals preventing stress corrosion can be alloyed as such or in the form of master alloys, for. B. with zinc or with gold.

The protective effect of the base metals can be explained as follows: If z. B. Jewelry made from an alloy of gold, copper and zinc be, in which for finishing z. B. Iron in the form of an iron-zinc master alloy was introduced, the zinc will migrate into the gold @ copper mixed crystals, while the iron in the state of finest distribution between the precious metals Solid solution remains. There is the possibility that the Iron with other metals present, e.g. B. with small amounts of zinc, alloys comes in. In the construction of jewelry made of alloys that z. B. gold, copper, Contain zinc, silver and palladium, similar processes are likely to take place, by mixing the precious metals with alloy components such as copper and zinc, mixed crystals form, while the protective metal z. B. on its own or perhaps in alloys with other metals the alloy is interspersed by being between the precious metals Incorporated mixed crystals. External influences such as B. are able to sweat, to trigger the dangerous voltages are likely to occur in jewelry according to the invention so that they act on the finest particles of the protective metal, perhaps under Dissolving traces of it, act, thereby preventing the precious metal alloy itself is affected by these influences.

It has also proven to be in some cases. proved beneficial to the Heat jewelry to higher temperatures, then cool or quench them and finally tempering them by heating them to suitable temperatures. When heated a more or less extensive solution of the protective metals is likely to take place while re-excretion or partial re-excretion on cooling and tempering of the protective metals, probably in a particularly finer and more even state Distribution takes place.

The invention is suitable for the production of various pieces of jewelry The way rings, especially wedding rings, bracelets, collars, watch cases, glasses, Lorgnons, opera glasses, cigarette boxes, pencils, pens, or ingredients such jewelry. The invention is also for the manufacture of jewelry suitable from duplicated goods.

The various alloys and jewelry made from them Occurring stress corrosion or the invention by adding one or several protective metals achievable effects can be achieved in the simplest way determined or controlled that one suitable structures, z. B. in rod form, cold bends, thereby generating a certain tension and the bent rod in suitable Liquids, e.g. B. ferric chloride solutions. This occurs in longer periods or shorter periods of time destruction z. B. by cracking. The duration up to to burst gives a measure of the alloy's resistance to the destructive effects of stress corrosion in the ordinary use of the jewelry made therefrom.

Claims (3)

PATENT CLAIMS: i. Jewelery which consists wholly or partly of gold-copper alloys with 33 to 60% gold, 10 to 550% copper and 0.5 to 25% zinc, characterized in that the alloys are base metals, the have the property of not or not completely entering the mixed crystals containing noble metals, namely iron, cobalt or vanadium in amounts of 0.1 to 50%, preferably 0.3 to 3%, by which the alloys against Stress corrosion are protected. 2. Jewelry according to claim i, characterized by a content of iridium in the alloys Amounts not exceeding i% of the total alloy, which has a grain-refining effect. 3. pieces of jewelry according to claims i and 2, characterized by a content of the alloys of platinum, palladium and / or rhodium in amounts from 1 to 15%. ¢. Jewelery according to claims i to 3, characterized by a content of the alloys on silver in amounts between 1 and 30 '/ 0. .